Introduction: Fatigue is a cumulative result of tissue damage or an energy shortage in the body. Studies have shown that one factor causing fatigue may be related to the gut microbiota. Probiotics have mainly been studied to balance intestinal flora and improve physical function, so applying probiotics to ameliorate fatigue caused by exercise could be a potential solution. Therefore, this study evaluated the efficacy of Lactobacillus johnsonii strain GKJ2 in improving exercise performance and reducing fatigue caused by exercise. Methods: The experimental design comprised an experimental and a control group. The experimental group's six-week-old male ICR mice (N = 6) were given lactic acid bacteria L. johnsonii GKJ2 powder (200 mg/kg body weight/day) for 28 consecutive days. The control group treated the same as the experimental group except no intervention of the strain GKJ2. Then, their exercise performance and the serum biochemical indicators related to fatigue were measured to evaluate the effects of L. johnsonii strain GKJ2 on ameliorating exercise fatigue. Results: The experimental group had 1.73-fold longer exhaustive swimming test times than the control mice (p < .001). In addition, the mice in the experimental group maintained significantly lower blood lactate concentrations during exercise and significantly lower blood urea nitrogen concentrations during the post-exercise rest than the control group. Moreover, the experimental group had significantly higher glycogen content in their liver (p < .001) and muscle (p < .01) tissues than the control group. Conclusion: L. johnsonii GKJ2 has the potential to improve exercise performance and reduce muscle fatigue after exercise.